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US3468136A - Method for maintaining organs in a completely viable state - Google Patents

Method for maintaining organs in a completely viable state
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US3468136A
US3468136AUS753025*AUS3468136DAUS3468136AUS 3468136 AUS3468136 AUS 3468136AUS 3468136D AUS3468136D AUS 3468136DAUS 3468136 AUS3468136 AUS 3468136A
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temperature
tank
organs
viable state
organ
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Emil S Swenson
William L Koski
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EMIL S SWENSON
WILLIAM L KOSKI
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EMIL S SWENSON
WILLIAM L KOSKI
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Sept. 23, 1969 E. s. SWENSON ET AL 3,468,136
METHOD FOR MAINTAINING ORGANS IN A COMPLETELY VIABLE STATE Original Filed Aug. 25, 1964 .nmum.
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United States Patent 3,468,136 METHOD FOR MAINTAINING ORGANS IN A COMPLETELY VIABLE STATE Emil S. Swenson, 247 106th Ave. NW., Coon Rapids, Minn. 55433, and William L. Koski, 3905 Halifax Ave. N., Minneapolis, Minn. 55422 Original application Aug. 25, 1964, Ser. No. 391,931, now Patent No. 3,406,531, dated Oct. 22, 1968. Divided and this application July 16, 1968, Ser. No. 753,025 Int. Cl.A61b 19/00; F25d 17/02 US. Cl. 62-64 3 Claims ABSTRACT OF THE DISCLOSURE The invention is concerned with providing a process for storing body organs in a viable state preparatory to transplanting and consists of a sealed pressure tight container in which preserving liquid and the organ are stored. The container is kept at an optimum temperature range of 0 C. to 4 C. by an indirect refrigeration system in which holdover liquid such as alcohol solution transfers heat from the container to the evaporator of a refrigeration system. Oxygen under pressure is admitted to the container so as to keep the organ in a viable condition.
This is a divisional application of our copending application Ser. No. 391,931, filed Aug. 25, 1964, now Patent No. 3,406,531, patented Oct. 22, 1968.
An object of this invention is to provide method for preserving and maintaining organs in a completely viable state for ultimate transplantation, in which the organs are maintained at a predetermined low temperature and are subjected to hyperbaric oxygenation while immersed in a saline solution.
More specifically this invention relates to a method in which organs such as kidneys and the like are maintained in a completely viable state for relatively long periods of time while awaiting transplantation, in which the organ is immersed in a saline solution while maintained at a temperature of approximately 0 C. to 4 C. while simultaneously subjected to hyperbaric oxygen pressure in excess of approximately three atmospheres.
These and other objects and advantages of the invention will more fully appear from the following description made in connection with the accompanying drawings, wherein like character references refer to the same or similar parts throughout the several views, and in which:
FIG. 1 is an elevational view of the apparatus with certain parts thereof broken away for clarity;
FIG. 2 is a top plan view thereof;
FIG. 3 is a top plan view of a certain part of the circulatory system and taken approximately along line 3-3 of FIG. 1 and looking in the direction of the arrows;
FIG. 4 is a top plan view of a slightly modified form of the invention; and
FIG. 5 is a diagrammatic illustration of certain components of the coolant circulating system and illustrating the flow diagram or pattern of the liquid coolant.
Referring now to the drawings and more specifically to FIG. 1, it will be seen that one embodiment of the apparatus for preserving organs in a viable state, and designated generally by thereference numeral 10, is thereshown.
The apparatus includes ahousing 11 havingcasters 12 and which has asuitable hypothermia tank 13 carried by the top thereof. This hypothermia tank, as seen, is of rectangular configuration and includes insulatedupstanding side walls 14, aninsulated bottom wall 15 and atop wall 16. Thecooling tank 13 is adapted to contain a predetermined amount of a liquid coolant therein and since the coolant does not completely fill the interior volumetric space or chamber 17 of thetank 13, there is no liquid contact with theupper wall 16 and the latter does not necessarily have to be of insulated construction. The interior 17 is adapted to be at least partially filled with a liquid coolant such as a permanent anti-freeze solution, a weak alcohol solution or the like which has a relatively low freezing point since the liquid coolant is preferred to be maintained at a temperature within the range of 0 C. to 4 C.
Thetank 13 has one end of an inlet conduit 18 connected to thebottom wall 15 thereof in communicating relation therewith and also has one end of anelongate outlet conduit 19 connected to thebottom wall 15 in communicating relation with the interior 17 thereof. The other end of the inlet conduit 18 is connected to the upper end of atank 20 while the lower or other end of theconduit 19 is connected to a pump mechanism or unit 21. The pump unit which serves to positively circulate the liquid coolant and the circulatin coolant system is a posi--coolant tank 20. Thecoolant tank 20 is of stainless steel construction and has refrigerant coils wound concentrically exteriorly thereof so that the liquid coolant passing through thecoolant tank 20 will be continuously cooled. It will be seen that in the circulating system, the liquid passes downwardly through the outlet conduit 19 through the pump unit 21 into the lower end of thecoolant tank 20 and thereafter upwardly through the inlet conduit 18 and is ultimately discharged into the interior 17 of thetank 13. With this particular arrangement the liquid coolant within the coolant system may be maintained at a desired predetermined temperature.
Thetop wall 16 of thetank 13 which is removably connected thereto has a centrally located aperture or opening therein through which projects an annular positioning member 23 having an outturned annular flange 24 which is constructed of a suitable rigid metallic material. The annular outturned flange 24 of the positioning member 23 has a plurality of circumferentially spaced-apart apertures therein, the function of which will be described hereinbelow.
A preservation receptacle 25 constructed of a suitable rigid material and having an outwardly flared open top extends through the opening in thetop wall 16 of thehypothermia tank 13 and the flanges thereof are supported upon the outturned flanges of the annular positioning member 23. It will be noted that the positioning member 23 also engages the exterior walls of the preservation receptacle 25 so that the latter is preferably supported so that the coolant within thehypothermia tank 13 contacts substantially the entire lower portion of the receptacle 25 to permit a heat exchange action to take place thereat. In order to promote a highly effective heat exchange action between the liquid cool-ant within the hypothermia tank and the preservation receptacle 25, the inlet conduit 18 is connected to ashort stand pipe 26 arranged vertically of the chamber 17 of the hypothermia tank and which is connected in communicating relation to upper surface of the flanged or flared upper end of the Patented Sept. 23, 1969.
preservation receptacle 25 and is clamped thereagainst by a substantially fiat circular cover orclosure plate 29. To this end, it is pointed out that theclosure plate 29 projects radially beyond the circumferential edges of the flared end of the preservation receptacle 25 and is suitably apertured to receive thebolt assemblies 30 therethrough which also project through the annular flange 24 of the positioning member 23 and apertures in thetop plate 16 of thetank 13. It will therefore be seen that the hyperbaric chamber orinterior 31 of the preservation receptacle 25 is sealed from the exterior.
Refrigeration system is provided for cooling and maintaining the liquid coolant within thehypothermia tank 13 and this refrigeration system is mounted on thehousing 11, as best seen in FIG. 1, and includes the conventional refrigeration components. Although illustrated only diagrammatically, the refrigeration system includes a con densing unit, a thermostatic expansion unit, a filter dryer and an evaporator (not specifically shown). The condensing unit includes the conventional hermetic motorcompressor assembly, a condenser, receiver, and con denser fan and motor, all of which are conveniently mounted on the housing. This unit is also provided with refrigerant shut-ofi valves and compressor motor starting relay, starting capacitor and overload protector switch.
In the embodiment shown, the refrigeration system is provided with a refrigerant gas such as Freon-12 and this refrigeration system serves to cool the circulating liquid coolant to the desired degree. This Freon refrigerant is circulated through the refrigeration system by means of a conduit 32. The conduit 32 is wound around the exterior surface of thecoolant tank 20 and defines an evaporator coil. This lower coolant tank as well as the refrigerant coils are covered with a suitable insulating material so that the heat exchange action takes place between the refrigerant coils and the wall of the coolant tank. The refrigerant which passes through the conduit 32 and the evaporator coils is in turn cooled by the refrigeration system to the desired degree.
Thehyperbaric chamber 31 or interior of the preservation receptacle 25 is only partially filled with the saline solution so that a volumetric space is presented above the level of the liquid and the lower surface of the cover orclosure plate 28. The process for maintaining organs or living tissue in the completely viable state not only requires that the organs be maintained in a low temperature environment but also that these organs be subjected to a hyperbaric pressure preferably in excess of three atmospheres of oxygen. Oxygen is therefore supplied to thehyperbaric chamber 31 from a suitable source of oxygen under pressure through aconduit 34.
It will be seen that theconduit 34 is connected in communicating relation by asuitable coupling element 33 and afitting 36 which is carried by theclosure plate 28 and which intercommunicates the inlet end of the conduit with thehyperbaric chamber 31. The other end of theconduit 33 is connected to acontainer 35 which contains a predetermined volume of oxygen under pressure. Apressure gauge 37 is also mounted on thecover plate 28 and serves to indicate the pressure of the hyperbaric chamber. Although not shown in the drawings, suitable valve means are provided for controlling the discharge of the oxygen into thechamber 31 so that the pressure is maintained at the predetermined magnitude.
The preservation receptacle is also provided with temperature indicating means so that an operator may readily know the temperature of the liquid preserving solution within thehyperbaric chamber 31. To this end, a thermometer mechanism 38 is provided having temperature sensing means of conventional construction extending down into the saline solution to sense the temperature thereof and which will be readily indicated on thedial indicator 39. This mechanism 38 is carried by thecover plate 28 and theindicator dial 39 of the temperature in- 4 dicating mechanism is positioned, of course, exteriorly of the cover plate.
Means are also provided for controlling the temperature of the liquid coolant within thehypothermia tank 13 and this means includes a pre-settable temperature indicating andcontrol mechanism 40 which, as seen, is mounted upon acontrol panel 50 which projects upwardly from and is attached to thehousing 11. This presettable temperature control and indicatingmechanism 40 is adjustable to pre-set the desired temperature, the liquid coolant in the hypothermia tank is to be maintained at, and includes an adjustable actuator knob which controls a preset indicator needle of theindicator dial 51. Thismechanism 40 also includes an indicating needle which actually indicates the temperature of the liquid coolant within thehypothermia tank 13 so that when the indicating needle is disposed in registering relation with the pre-set needle, the refrigeration system is de-energized. However, when the indicating needle is not disposed in registering relation with respect to the pre-set needle, the current to the refrigeration system is energized so that the refrigeration system is operative for cooling'the liquid coolant within the hypothermia tank. The particular construction of this pre-settable temperature control and indicatingmechanism 40 and the circuitry associated therewith with respect to the refrigeration systent is of well known construction in the art and a detailed description thereof and the circuitry is felt unnecessary for the instant application.
Means are also provided for not only indicating the temperature of the coolant within thehypothermia tank 13 but also recording the temperature for a predetermined period of time so that an operator or observer may readily be apprised of whether the temperature necessary to maintain the organ being preserved in a completely viable state has been maintained. To this end, a temperature recorder andindicator mechanism 52 is also mounted upon thecontrol panel 50 and is provided With suitable means for sensing the temperature of the liquid coolant within thehypothermia tank 13. Such a temperature recorder and indicator mechanism may be of the type sold under the trade name of Electronic 18 Strip Chart Recorder manufactured and sold by Minneapolis Honeywell Corporation.
This recorder and indicator mechanism will be provided with a strip chart suitably driven and which is engaged by a pin assembly or stylus and continuously records the temperature in a well-known manner. This particular arrangement allows an operator to readily determine if the temperature of the liquid within the preservation receptacle has been maintained so that the organ is in a completely viable state. It will be appreciated that in most instances it is not desirable to have to make histiological studies of the organ to be transplanted. In the event that the refrigeration system is rendered inoperative to allow the temperature of the liquid coolant and the temperature of the preserving environment to exceed the upper limit of the critical range, then the tissue or organ will be damaged or possibly undergo complete necrosis.
It has been found that in order to successfully preserve an organ for approximately twenty-four hours, it is necessary to utilize the low temperature environment as well as subjecting the organ to oxygen under pressure. The importance of oxygen under pressure is not fully understood with respect to the preserving of organs in a completely viable state. It has been found, however, that oxygen consumption decreases exponentially with decreasing temperature and that oxygen saturation increases as the temperature decreases.
Experiments have been conducted with respect to the preservation of kidneys from canine subjects wherein the kidneys were first removed from the animal. Thereafter, the kidney was perfused immediately with refrigerated (5 C.) 5% low molecular weight dextran (40,000) in isotonic saline containing haparin sodium (50 mg. per 50 ml. solution) until a clear efiluent from the renal vein was observed. Thereafter the renal vein was cannulated with a polyethylene tube, centimeters in length, and which was oriented in a substantially vertical position. This particular technique permits perfusion of the kidney against the venous pressure of approximately 10 centimeters of water and tends to prevent intrarenal vascular spasms and collapse. Immediately after perfusion of the kidney, it was immersed in a balanced salt solution bath contained within thehyperbaric chamber 31 which had been previously sterilized. The solution is then precooled by the liquid coolant to approximately 0 C. to 4 C. and oxygen was supplied to thehyperbaric chamber 31 at a pressure of approximately three atmospheres.
The kidney was preserved in the hyperbaric chamber for approximately twenty-four hours and was thereafter replanted in the neck of the donor animal by anastomosis of the renal artery and vein to the common carotid and external jugular vein.
Referring now to FIG. 4, it will be seen that the embodiment disclosed therein is of slightly modified construction from that illustrated in FIGS. 1 to 3. In FIG. 4, thetop wall 16 of the hypothermia tank is provided with a plurality of openings therein, four of such openings being illustrated, each of which accommodates apreservation receptacle 60, each having aclosure plate 61 detachably closing the hyperbaric chamber thereof. The particular construction of thesepreservation receptacles 60 illustrated in FIG. 4 are substantially identical to that illustrated in FIGS. 1 to 3 with possibly the exception that each of thereceptacles 60 may be of slightly smaller volumetric size than the preservation receptacle 25. In all other respects, the apparatus illustrated in FIG. 4 is identical to that shown in FIGS. 1 to 3 and further detailed description thereof is felt unnecessary.
It will be seen from the foregoing description that the apparatus and process described require that the organ or tissue to be preserved for a period of time must not only be cooled and maintained in a cooled environment of approximately 0 C. to 4 C. but also necessitates subjecting the organ to oxygen pressure of approximately three atmospheres. In some instances, it is desirable to maintain the organ at a low temperature between 0 C. to 4 C. While subjecting the same to oxygen pressure within the range of five to ten atmospheres. As pointed out above, it has been found that through hypothermia or cooling, the oxygen consumption of an organ such as a kidney is relatively low, and it may be that the smaller the amount of oxygen which is actually consumed may be vital to the maintenance of cellular viability.
Kidneys which were removed from the canine subjects and preserved in vitro for approximately twenty-four hours by combining hypothermia (0 C. to 4 C.) with hyperbaric oxygenation at approximately three atmospheres of oxygen, and which preserved kidneys were thereafter replaced, apparently functioned normally and are able to sustain the life of the donor canine subject after contralateral nephrectomy.
From the foregoing it will be seen that a method and apparatus for preserving and maintaining organs in a completely viable state for transplantation has been provided utilizing hyperbaric oxygenation and hypothermia. It will be noted from the preceding paragraphs that organs from canine subjects have been preserved at relatively low temperatures when such organs have been immersed in a preserving saline solution and when subjected to concentrations of oxygen approximating three atmospheres.
Thus it will be seen that a relatively uncomplicated apparatus and process has been evolved for preserving and maintaining organs in a completely viable state so that such organs may later be used for transplantation.
It will, of course, be understood that various changes may be made in the form, details, arrangement and proportions of the various parts Without departing from the scope of our invention.
What is claimed is:
1. A method for preserving and maintaining organs in a completely viable state for transplantation, said method comprising immersing an organ to be preserved in a liquid preserving solution within a chamber sealed from the exterior, maintaining the preserving solution and the organ immersed therein at a temperature Within the range of 0 C. to 4 C., introducing oxygen under pressure into the chamber and maintaining the oxygen pressure Within the chamber at a predetermined magnitude in excess of at least one atmosphere.
2. A method for preserving and maintaining organs in a completely viable state for transplantation, said method comprising immersing an organ to be preserved in a liquid preserving solution within a chamber sealed from the exterior, maintaining the preserving solution and the organ immersed therein at approximately 0 C., introducing oxygen under pressure into the chamber and maintaining the oxygen pressure within the chamber at a predetermined magnitude in excess of at least one atmosphere.
3. A method for preserving and maintaining organs in a completely viable state for transplantation, said method comprising immersing an organ to be preserved in a liquid preserving solution within a chamber sealed from the exterior, maintaining the preserving solution and the organ immersed therein at a temperature within the range of 0 C. and 4 C., introducing oxygen under pressure into the chamber and maintaining the oxygen pressure within the chamber at a predetermined magnitude in excess of at least three atmospheres.
References Cited UNITED STATES PATENTS WILLIAM E. WAYNER, Primary Examiner Us. 01. X.R. 12s 1; 424-183
US753025*A1964-08-251968-07-16Method for maintaining organs in a completely viable stateExpired - LifetimeUS3468136A (en)

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US75302568A1968-07-161968-07-16

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Cited By (30)

* Cited by examiner, † Cited by third party
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US3545225A (en)*1968-08-161970-12-08Swenko Research & Dev IncApparatus for maintaining whole organs in a viable state
US3777507A (en)*1971-11-241973-12-11Waters Instr IncRenal preservation system
US3810367A (en)*1970-07-161974-05-14W PetersonContainer for cooling, storage, and shipping of human organ for transplant
US4565073A (en)*1985-02-071986-01-21Armour Pharmaceutical Co.Freezing frame for a plasma container
US5191773A (en)*1989-08-221993-03-09Cassell Allan JRecirculating chilling apparatus with a submerged electric motor and impeller
EP0366601B1 (en)*1988-10-211993-12-22Büchi Laboratoriums-Technik AGRotary evaporator
US5423191A (en)*1993-05-111995-06-13Bennett; James B.Circulating cold water cooler-chiller
EP0755625A1 (en)*1995-07-281997-01-29Hubert VerhaagPreservation of tissues or organs by pressurized oxygen
US20040102415A1 (en)*2000-04-102004-05-27Hemant ThatteComposition and methods for tissue preservation
US20040171138A1 (en)*2002-08-142004-09-02Transmedics, Inc.Heart preservation chamber
US7008535B1 (en)2000-08-042006-03-07Wayne State UniversityApparatus for oxygenating wastewater
US20090197240A1 (en)*2008-01-312009-08-06Transmedics, IncSystems and methods for ex vivo lung care
US8822203B2 (en)2006-04-192014-09-02Transmedics, Inc.Systems and methods for ex vivo organ care
US9055740B2 (en)2004-10-072015-06-16Transmedics, Inc.Systems and methods for ex-vivo organ care
US9078428B2 (en)2005-06-282015-07-14Transmedics, Inc.Systems, methods, compositions and solutions for perfusing an organ
US9301519B2 (en)2004-10-072016-04-05Transmedics, Inc.Systems and methods for ex-vivo organ care
US9457179B2 (en)2007-03-202016-10-04Transmedics, Inc.Systems for monitoring and applying electrical currents in an organ perfusion system
US9756849B2 (en)1997-09-232017-09-12The Department Of Veteran AffairsCompositions, methods and devices for maintaining an organ
US9894894B2 (en)2004-10-072018-02-20Transmedics, Inc.Systems and methods for ex-vivo organ care and for using lactate as an indication of donor organ status
US10076112B2 (en)2014-06-022018-09-18Transmedic, Inc.Ex vivo organ care system
US10194655B2 (en)2015-09-092019-02-05Transmedics, Inc.Aortic cannula for ex vivo organ care system
US10575515B2 (en)2010-05-042020-03-03The General Hospital CorporationMethods and compositions for preserving tissues and organs
US10918102B2 (en)2014-03-132021-02-16The General Hospital CorporationDevices and methods to improve and assess viability of human livers
US11136553B2 (en)2009-07-012021-10-05Massachusetts Institute Of TechnologyIsolated adult cells, artificial organs, rehabilitated organs, research tools, organ encasements, organ perfusion systems, and methods for preparing and utilizing the same
US11856944B2 (en)2011-04-142024-01-02Transmedics, Inc.Organ care solution for ex-vivo machine perfusion of donor lungs
US11963526B2 (en)2014-12-122024-04-23Transmedics, Inc.Apparatus and method for organ perfusion
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US12058996B2 (en)2017-06-142024-08-13The General Hospital CorporationHigh subzero cryopreservation
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US12167729B2 (en)2018-05-302024-12-17The General Hospital CorporationCryopreservation of tissues and organs

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Cited By (66)

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Publication numberPriority datePublication dateAssigneeTitle
US3545225A (en)*1968-08-161970-12-08Swenko Research & Dev IncApparatus for maintaining whole organs in a viable state
US3810367A (en)*1970-07-161974-05-14W PetersonContainer for cooling, storage, and shipping of human organ for transplant
US3777507A (en)*1971-11-241973-12-11Waters Instr IncRenal preservation system
US4565073A (en)*1985-02-071986-01-21Armour Pharmaceutical Co.Freezing frame for a plasma container
EP0366601B1 (en)*1988-10-211993-12-22Büchi Laboratoriums-Technik AGRotary evaporator
US5337806A (en)*1988-10-211994-08-16Buchi Laboratoriums-Technik AgMethod and device for heating or cooling a reaction flask
US5191773A (en)*1989-08-221993-03-09Cassell Allan JRecirculating chilling apparatus with a submerged electric motor and impeller
US5423191A (en)*1993-05-111995-06-13Bennett; James B.Circulating cold water cooler-chiller
EP0755625A1 (en)*1995-07-281997-01-29Hubert VerhaagPreservation of tissues or organs by pressurized oxygen
US9756849B2 (en)1997-09-232017-09-12The Department Of Veteran AffairsCompositions, methods and devices for maintaining an organ
US9756850B2 (en)1997-09-232017-09-12The Department Of Veteran AffairsCompositions, methods and devices for maintaining an organ
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US7981596B2 (en)2000-04-102011-07-19The United States Of America As Represented By The Department Of Veteran's AffairsTissue preservation with a salt solution isotonic with interstitial fluids
US7294278B2 (en)2000-08-042007-11-13Wayne State UniversityMethod for oxygenating wastewater
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US9055740B2 (en)2004-10-072015-06-16Transmedics, Inc.Systems and methods for ex-vivo organ care
US10314303B2 (en)2004-10-072019-06-11Transmedics, Inc.Systems and methods for ex-vivo organ care
US10321676B2 (en)2004-10-072019-06-18Transmedics, Inc.System and methods for ex-vivo organ care and for using lactate as an indication of donor organ status
US9894894B2 (en)2004-10-072018-02-20Transmedics, Inc.Systems and methods for ex-vivo organ care and for using lactate as an indication of donor organ status
US12396454B2 (en)2004-10-072025-08-26Transmedics, Inc.Systems and methods for ex-vivo organ care and for using lactate as an indication of donor organ status
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US9078428B2 (en)2005-06-282015-07-14Transmedics, Inc.Systems, methods, compositions and solutions for perfusing an organ
US11844345B2 (en)2005-06-282023-12-19Transmedics, Inc.Systems, methods, compositions and solutions for perfusing an organ
US8822203B2 (en)2006-04-192014-09-02Transmedics, Inc.Systems and methods for ex vivo organ care
US12207649B2 (en)2007-03-202025-01-28Transmedics, Inc.Systems for monitoring and applying electrical currents in an organ perfusion system
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US9457179B2 (en)2007-03-202016-10-04Transmedics, Inc.Systems for monitoring and applying electrical currents in an organ perfusion system
US12317888B2 (en)2008-01-312025-06-03Transmedics, IncSystems and methods for ex vivo lung care
US9516875B2 (en)2008-01-312016-12-13Transmedics, Inc.Systems and methods for ex vivo lung care
US20090197240A1 (en)*2008-01-312009-08-06Transmedics, IncSystems and methods for ex vivo lung care
US9814230B2 (en)2008-01-312017-11-14Transmedics, Inc.Systems and methods for ex vivo lung care
US9462802B2 (en)2008-01-312016-10-11Transmedics, Inc.Systems and methods for ex vivo lung care
US10750738B2 (en)2008-01-312020-08-25Transmedics, Inc.Systems and methods for ex vivo lung care
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